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Decomposition of overlapping plasmagram peaks by spectral subtraction
David C. Swanson
Applied Research Laboratory (ARL)
Research output
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Contribution to journal
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Article
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peer-review
3
Scopus citations
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Dive into the research topics of 'Decomposition of overlapping plasmagram peaks by spectral subtraction'. Together they form a unique fingerprint.
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Keyphrases
Spectral Subtraction
100%
Drift Tube
100%
Statistical Parameters
66%
Ion Mobility Spectrometry
66%
Subtractive Method
66%
Overlapping Peaks
66%
Instrument Drift
33%
Multiple Peaks
33%
Rise Time
33%
Closely Spaced
33%
Decomposition Method
33%
Gas Flow
33%
Atmospheric Pressure
33%
Signal Processing Techniques
33%
Low Field
33%
Diffusion Effect
33%
Statistical Distribution
33%
Fall Time
33%
Electric Field Strength
33%
Reaction Chamber
33%
Reduced Mobility
33%
Gating Mechanism
33%
Specific Factors
33%
Peak Shape
33%
Electrical Noise
33%
Ion Distribution
33%
Orthogonal Decomposition
33%
Peak Noise
33%
Ion Species
33%
Faraday
33%
Gate Time
33%
Drift Time
33%
Unique Decomposition
33%
Ion Gate
33%
Spurious Peaks
33%
Tube Design
33%
Engineering
Gaussians
100%
Rise Time
50%
Atmospheric Pressure
50%
Statistical Distribution
50%
Gas Flow
50%
Electric Field Strength
50%
Reaction Chamber
50%
Electrical Noise
50%
Peak Noise
50%
Peak Shape
50%
Physics
Gaussian Distribution
100%
Field Strength
50%
Electric Fields
50%
Atmospheric Pressure
50%
Ion Distribution
50%
Statistical Distribution
50%
Gas Flow
50%
Diffusion
50%
Chemistry
Gaussian Distribution
100%
Ion Mobility Spectroscopy
100%
Electric Field
50%
Gas Flow
50%